1. Physical Science Introduction to the wonderful world of Physics

2. Motion Objectives: Explain the relationship between motion and a frame of reference Relate speed to distance and time Distinguish between speed and velocity Solve problems related to time, distance, displacement, speed, and velocity

3. Motion An object’s change in position relative to a reference point Observing Motion Reference point- a stationary object aa.k.a reference frame

4. Direction Direction- a description of the direction of an object in motion with a reference directions Typical reference directions: North, South, East, West, up, or down

5. Distance vs. Displacement Distance-measures the path taken Displacement- the change in position of an object Displacement must be a straight line Generally, displacement is shorter than the distance traveled

6. Displacement Displacement must be in a particular direction, direction must always be indicated Ex) toward, away from, east of, west of, north of, south of, etc…

7. Speed Speed- the distance traveled divided by the time interval during which motion occurred Speed describes how fast an object moves SI unit : meters per second (m/s) Kilometer per hour (km/h) or Miles per hour (mi/h)

8. Constant Speed Constant speed- means that the speed does not change

9. Graphing Dependent variable (y-axis) distance –Vertical Independent variable (x-axis) time –Horizontal The speed of an object can be found by calculating the slope of the line The slope of any distance vs. time graph gives the speed of an object

10. Speed and Velocity Equation for average speed : –Speed = distance/ time Velocity = distance/ time Velocity- the speed of an object in a particular direction

11. Velocity Velocity gives the speed and direction of motion Ex) Chuck ran 3.5m/s north of the flood Direction can be measured as an angle from a fixed line. It can be described as positive or negative along a line of motion.

12. Velocity Velocity is considered to be positive in the direction of motion It is negative if moving in the opposite direction of motion

13. Calculating Velocity V=d/tt=d/vd=vt * if asked for displacement, you must specify direction Write these equations on your index card!

14. Practice Problem Metal stakes are sometimes placed in glaciers to help measure a glaciers’ movement. For several days in 1936, Alaska’s Black Rapids glacier surged as swiftly as 89 meters per day down the valley. Find the glacier’s velocity in m/s. *Remember to include direction! Given: time t=1 day Displacement d= 89 m down the valley Unknown: velocity v=? (m/s and direction)

15. Practice problem t= 1 day convert to seconds Show in scientific notation x 10 s Speed=displacement /time =d/t V=d/t 89m/ s V= m/s down the valley

16. Practice problems Complete # 1-3 On page 323

17. Resultant Velocities A. When you have two velocities that are in the same direction, add them together to find the resultant velocity, which is in the direction of the two velocities »→ 15m/s »→ 3.5 m/s »= 18.5m/s east »

18. B. When you have two velocities that are in opposite directions, add the positive velocity to the negative velocity to find the resultant velocity, which is in the direction of the larger velocity »← -2.5 m/s »→ 16 m/s »= 13.5 m/s east